Chromosomal aberrations detected by comparative genomic hybridization (CGH) in human astrocytic tumors

We investigated chromosomal aberrations in 16 patients with astrocytic tumors of various histologic malignancies by comparative genomic hybridization (CGH). The degree of chromosomal loss was shown to be negatively correlated with histologic malignancy. Losses of portions of chromosomes 1p, 19q and 22q were the three chromosomal aberrations observed most frequently. Alterations in multiple chromosomes were observed more frequently in glioblastomas than in astrocytomas or anaplastic astrocytomas (P < 0.001). Primary glioblastomas showed a high frequency of genomic DNA gains (5/7), whereas recurrent glioblastomas from anaplastic astrocytomas did not (0/3). We found CGH to be a powerful tool for surveying DNA alterations in tumors and characterizing the biology of tumors of astrocytic lineage.     

Chromosomal changes during development and progression of prostate adenocarcinomas

Chromosomal copy number changes were investigated in 16 prostate carcinomas, 12 prostatic intraepithelial neoplasias (PIN; 4 low-grade and 8 high-grade) adjacent to the invasive tumour areas, and 5 regional lymph node metastases. For this purpose, comparative genomic hybridization (CGH) was performed and a copy number karyotype for each histomorphological entity was created. CGH on microdissected cells from non-neoplastic glands was carried out on 3 different cases to demonstrate the reliability of the overall procedure. None of the non-neoplastic tissue samples revealed chromosome copy number changes. In PIN areas, chromosomal imbalances were detected on chromosomes 7, 8q, Xq (gains), and on 4q, 5q, 8p, 13q and 18q (losses). In the primary tumours, recurrent (at least 25% of cases) gains on chromosomes 12q and 15q, and losses on 2q, 4q, 5q, Xq, 13q and 18q became apparent. Losses on 8p and 6q as well as gains on 8q and of chromosome 7 were also detected at lower frequencies than previously reported. The pooled CGH data from the primary carcinomas revealed a novel region of chromosomal loss on 4q which is also frequently affected in other tumour entities like oesophageal adenocarcinomas and is supposed to harbour a new tumour suppressor gene. Gains on chromosome 9q and of chromosome 16 and loss on chromosome 13q were observed as common aberrations in metastases and primary tumours. These CGH results indicate an accumulation of chromosomal imbalances during the PIN-carcinoma-metastasis sequence and an early origin of tumour-specific aberrations in PIN areas.     

Chromosomal imbalances in malignant peripheral nerve sheath tumor detected by metaphase and microarray comparative genomic hybridization

Malignant peripheral nerve sheath tumors (MPNSTs) are highly malignant tumors affecting adolescents and adults. There have been a few reports on chromosomal aberrations of MPNSTs; however, the tumor-specific alteration remains unknown. We characterized the genomic alterations in 8 MPNSTs and 8 schwannomas by metaphase comparative genomic hybridization (CGH). In 5 of 8 MPNSTs, microarray CGH was added for more detailed analyses. Frequent gains were identified on 3q13-26, 5p13-14, and 12q11-23 and frequent losses were at 1p31, 10p, 11q24-qter, 16, and 17. Microarray CGH revealed frequent gains of EGFR, DAB2, MSH2, KCNK12, DDX15, CDK6, and LAMA3, and losses of CDH1, GLTSCR2, EGR1, CTSB, GATA3, and SULT2A1. These genes seem to be responsible for developing MPNSTs. The concordance rate between metaphase CGH and microarray CGH was 66%. Metaphase CGH was useful for identifying chromosomal alterations before applying microarray CGH.     

High incidence of unbalanced chromosomal changes in mantle cell lymphoma detected by comparative genomic hybridization

Comparative genomic hybridization (CGH) was carried out in 30 mantle cell lymphoma (MCL) patients at the time of diagnosis. CGH results were supported by conventional cytogenetics (CC), FISH, molecular genetic PCR methods and 2 patients were examined by array CGH. Using all cytogenetic, molecular cytogenetic and PCR methods, chromosomal changes were detected in 28 (93%) patients. Using CGH, unbalanced chromosomal changes were detected in 24 (80%) cases. The most frequent aberrations were losses of 1p (8 cases), 8p (10 cases), 9q (6 cases), 11q (11 cases), 13q (10 cases) and 17p (9 cases), and gains of chromosome 3 and 3q (12 cases) and 8q (7 cases). Total number of 60 gains and 116 losses were detected. The primary chromosomal change t(11;14) was detected using FISH and/or PCR in 20 (66.6%) patients, and in 9 of them, the breakpoint was determined using PCR in the major translocation cluster (MTC). The evaluation of the frequencies of CGH changes in groups of patients with and without t(11;14) revealed the differences only in losses 6q and 9q, which were only found in patient with t(11;14). An important result was obtained using array CGH method. In a patient without the primary t(11;14), the gain of CCND1 gene was found. Our results show high heterogeneity of the additional chromosomal changes in MCL cases, which involved specific chromosomal subregions. We did not confirm the importance of subdividing of MCL cases with and without t(11;14). Also, statistical significance in survival rates between both subgroups was not confirmed.     

Molecular cytogenetic characterization of head and neck squamous cell carcinoma and refinement of 3q amplification

We applied a combination of molecular cytogenetic methods, including comparative genomic hybridization (CGH), spectral karyotyping (SKY), and fluorescence in situ hybridization, to characterize the genetic aberrations in a panel of 11 cell lines derived from head and neck squamous cell carcinoma and 1 cell line derived from premalignant oral epithelium. CGH identified recurrent chromosomal losses at 1p, 3p, 4, 8p, 10p, and 18q; gains at 3q, 5p, 8q, 9q, and 14q; and high-level amplification at 3q13, 3q25-q26, 5q22-q23, 7q21, 8q24, 11q13-q14, 12p13, 14q24, and 20q13.1. Several recurrent translocations including t(1;13)(q10;q10), t(13;13)(q10;q10), t(14;14)(q10;q10), i(8)(q10), and i(9)(q10) and breakpoint clusters at 1p11, 1q21, 3p11, 5q11, 5q13, 6q23, 8p11, 8q11, 9p13, 9q13, 10q11, 11q13, 13q10, 14q10, and 15q10 were identified by SKY. There was a good correlation between the number of aberrations identified by CGH and SKY (r = 0.69), and the analyses were both confirmatory and complementary in their assessment of genetic aberrations. Amplification at 3q26-q27 was identified in 42% of cases. Although SKY defined the derivation of 3q gain, the precise breakpoint remained unassigned. Positional cloning efforts directed at the amplified region at 3q26-q27 identified three highly overlapping nonchimeric yeast artificial chromosome clones containing the apex of amplification. The use of these yeast artificial chromosome clones as a probe for fluorescence in situ hybridization analysis allowed a detailed characterization and quantification of the 3q amplification and refinement of unassigned SKY breakpoints.     

应用比较基因组杂交技术研究外阴鳞癌组织的遗传变异

背景与目的:外阴鳞状细胞癌约占女性外阴恶性肿瘤的80%～90%.但有关其遗传学研究却不多,本研究采用比较基因组杂交(comparative genomichybridization,CGH)技术分析外阴鳞癌组织的遗传变异,了解其遗传改变的特征.以期发现外阴鳞癌相关基因.方法:应用CGH技术检测21例外阴鳞癌基因组的不平衡性即其DNA的扩增或丢失.结果:外阴鳞癌常见的扩增染色体是3q,8q,12q.常见的丢失染色体是4p和3p.结论:外阴鳞癌细胞中存在多条染色体拷贝数的改变,由此引起相应癌基因的扩增和抑癌基因的丢失可能参与了外阴鳞癌的发生、发展.     

Assessment of chromosomal losses and gains in hepatocellular carcinoma

We examined the chromosomal changes of 22 hepatocellular carcinomas (HCCs) by comparative genomic hybridization (CGH) analysis and compared the results with that of allelotype by polymerase chain reaction based loss of heterozygosity (PCR-LOH) analysis. By CGH analysis, frequent chromosomal losses were noted in the chromosomal region of 4q (59%), 8p (77%), and 16q (50%), whereas gains were noted in 1q (86%) and 8q (77%). All of these chromosomal arms were revealed to have frequent allelic imbalances by PCR-LOH analysis, however, 9% of chromosomal aberrations were detected only by CGH analysis and 2% were detected only by PCR-LOH analysis. Our results suggest that CGH analysis gives more precise results for the screening of chromosomal aberrations in HCCs than that of PCR-LOH analysis with randomly selected microsatellite markers.     

Comparative genomic hybridization of esophageal squamous cell carcinoma: correlations between chromosomal aberrations and disease progression/prognosis.

BACKGROUND: Esophageal carcinoma is a major cause of cancer-related deaths among males in Taiwan. However, to date, the genetic alterations that accompany this lethal disease are not understood. METHODS: Chromosomal aberrations of 46 samples of esophageal squamous cell carcinoma (EC-SCC) were analyzed by comparative genomic hybridization (CGH), and their correlations with pathologic staging and prognosis were analyzed statistically. RESULTS: In total, 321 gains and 252 losses were found in 46 tumor samples; thus, the average gains and losses per patient were 6.98 and 5.47, respectively. Frequent gain abnormalities were found on chromosome arms 1q, 2q, 3q, 5p, 7p, 7q, 8q, 11q, 12p, 12q, 14q, 17q, 20q, and Xq. Frequent deletions were found on chromosome arms 1p, 3p, 4p, 5q, 8p, 9p, 9q, 11q, 13q, 16p, 17p, 18q, 19p, and 19q. It was found that deletions of 4p and 13q12-q14 and gain of 5p were significantly correlated with pathologic staging. Losses of 8p22-pter and 9p also were found more frequently in patients with advanced disease. Gain of 8q24-qter was seen more frequently in patients with Grade 3 tumors. A univariate analysis found that pathologic staging; gains of 5p and 7q; and deletions of 4p, 9p, and 11q were significant prognostic factors. However, pathologic staging became the only significant factor in a multivariate analysis. CONCLUSIONS: CGH not only revealed novel chromosomal aberrations in EC-SCC, but also found possible genotypic changes associated with disease progression. Despite all of the possible associations of chromosomal aberrations with disease progression, the most important prognostic factor for patients with EC-SCC was pathologic staging.     

采用比较基因组杂交方法分析原发性食管癌染色体异常

背景与目的:有研究表明原发性食管癌常有染色体的改变,包括染色体基因组异常扩增和缺失.比较基因组杂交技术可以显示这些染色体的异常变化.本实验采用比较基因组杂交技术研究和分析原发性食管癌染色体基因组的变化特点及其与预后的关系.方法:采用比较基因组杂交技术检测16例食管癌组织中染色体的异常改变,并分析染色体异常与预后的关系.研究的病例中7例食管癌术后2年内死亡(对照组),9例术后生存3年以上(生存组).结果:食管癌患者中多数染色体基因组发生改变,最常见的染色体基因组高扩增频率发生在1q/p,2q/p,3q,5q/p,8q/p,9q/p,11q/p,17和20q/p染色体区段上,在染色体1q/p,4p,9p,18q和xp中常见染色体基因缺失.染色体7q/p和19扩增频率和染色体4q/p和18q缺失频率,生存组与对照组间存在显著性差异.结论:食管癌患者染色体区段基因易发生异常扩增和缺失,生存组与对照组存在明显差异.     

Genome-wide array-based CGH for mantle cell lymphoma: identification of homozygous deletions of the proapoptotic gene BIM

Mantle cell lymphoma (MCL) is characterized by 11q13 chromosomal translocation and CCND1 overexpression, but additional genomic changes are also important for lymphomagenesis. To identify the genomic aberrations of MCL at higher resolutions, we analysed 29 patient samples and seven cell lines using array-based comparative genomic hybridization (array CGH) consisting of 2348 artificial chromosome clones, which cover the whole genome at a 1.3 mega base resolution. The incidence of identified genomic aberrations was generally higher than that determined with chromosomal CGH. The most frequent imbalances detected by array CGH were gains of chromosomes 3q26 (48%), 7p21 (34%), 6p25 (24%), 8q24 (24%), 10p12 (21%) and 17q23 (17%), and losses of chromosomes 2p11 (83%), 11q22 (59%), 13q21 (55%), 1p21-p22 (52%), 13q34 (52%), 9q22 (45%), 17p13 (45%), 9p21 (41%), 9p24 (41%), 6q23-q24 (38%), 1p36 (31%), 8p23 (34%), 10p14 (31%), 19p13 (28%), 5q21 (21%), 22q12 (21%), 1q42 (17%) and 2q13 (17%). Our analyses also detected several novel recurrent regions of loss located at 1p36, 1q42.2-q43, 2p11.2, 2q13, 17p13.3 and 19p13.2-p13.3, as well as recurrent regions of homozygous loss such as 2p11 (Ig(kappa)), 2q13 and 9p21.3-p24.1 (INK4a/ARF). Of the latter, we investigated the 2q13 loss, which led to identification of homozygous deletions of the proapoptotic gene BIM. The high-resolution array CGH technology allowed for the precise identification of genomic aberrations and identification of BIM as a novel candidate tumor suppressor gene in MCL.     

Cytogenetic analysis of infantile neuroblastomas by comparative genomic hybridization

Neuroblastomas are heterogeneous tumors. Their clinical behavior varies from spontaneous regression to malignant progression. To investigate the cytogenetic heterogeneity of infantile neuroblastomas, we employed comparative genomic hybridization (CGH). To characterize chromosomal imbalances in 35 infantile neuroblastomas, we performed CGH and compared our results with those of other clinical and biological studies. The most frequent genetic imbalances were found in chromosome 17 (43%), including whole chromosome 17 gains in eight patients (23%) and 17q gains in seven patients (20%). A 1p loss and a 2p gain were detected in six patients each (17%). Losses of 11q and 14q were detected in two patients (6%) and one (3%) patient, respectively. The number of gains of 17q were significantly higher in DNA diploid tumors than in aneuploid tumors (P=0.006). Conversely, whole chromosome 17 gains were not found in DNA diploid tumors and/or MYCN amplification. Interestingly, nine of 17 tumors that were histologically evaluated showed a spontaneous regression and did not demonstrate any partial chromosomal abnormalities (i.e. 17q gain, 1p loss, 2p gain, 11q loss and 14q loss). These results suggest that a gene on chromosome 17q is associated with neuroblastoma progression. Finally, our observations indicate that the chromosomal imbalances observed in infantile neuroblastomas are different from those observed in older patients.     

Frequent gains of 20q and losses of 18q are associated with lymph node metastasis in intestinal-type gastric cancer

BACKGROUND: The genetic aberrations associated with development and progression of gastric carcinomas (GCs) are poorly understood. The aim of this study was to identify chromosomal aberrations associated with the development and/or progression of intestinal-type GC. MATERIALS AND METHODS: Comparative genomic hybridization (CGH) analysis was applied to 36 intestinal-type GCs. We compared chromosomal aberrations detected by CGH analysis with clinicopathological parameters. RESULTS: Frequent gains of DNA copy number were found on 8q, 13q, 20q, 3q, 6q and losses were found on 17p, 18q in intestinal-type GCs. No significant differences were observed in the chromosomal aberrations between tumor stage, tumor location, peritoneal dissemination, liver metastasis or other distant metastasis. However, the frequencies of 20q12-13 gain and 18q21-22 loss were significantly higher in tumors with lymph node metastasis than in those without metastasis. CONCLUSION: Gains of 20q and losses of 18q may contribute to lymph node metastasis and the malignant phenotype in intestinal-type GCs.     

Comparative genomic hybridization detects many recurrent imbalances in central nervous system primitive neuroectodermal tumours in children

A series of 23 children with primitive neuroectodermal tumours (PNET) were analysed with comparative genomic hybridization (CGH). Multiple chromosomal imbalances have been detected in 20 patients. The most frequently involved chromosome was chromosome 17, with a gain of 17q (11 cases) and loss of 17p (eight cases). Further recurrent copy number changes were detected. Extra copies of chromosome 7 were present in nine patients and gains of 1q were detected in six patients. A moderate genomic amplification was detected in one patient, involving two sites on 3p and the whole 12p. Losses were more frequent, and especially involved the chromosomes 11 (nine cases), 10q (eight cases), 8 (six cases), X (six patients) and 3 (five cases), and part of chromosome 9 (five cases). These recurrent chromosomal changes may highlight locations of novel genes with an important role in the development and/or progression of PNET.     

103 Gain of Chromosome 2p25.3 Involving the ACP1 Gene is Frequent in Chronic Lymphocytic Leukemia

178 CLL cases were evaluated for 2p gains using custom-designed array CGH. A high frequency of 2p25.3 gain harboring ACP1 gene was observed. Copy gain of ACP1 is not due to copy number variation and it may contribute to pathogenesis of CLL together with other chromosomal abnormalities.

Full Abstract

Chromosomal aberrations are independent prognostic markers in chronic lymphocytic leukemia (CLL). Recent studies using genomic arrays have shown recurrent gains of the short arm of chromosome 2 (2p) in a subset of CLL. We evaluated 178 CLL cases for 2p gains using custom-designed oligonucleotide array-based comparative genomic hybridization (aCGH). A high frequency of 2p gains was observed in 53 of 178 (30%) of cases. These gains ranged from small 29 kb region to large segments involving the

     

Chromosomal abnormalities, p53 and Bcl-2 expression and clinical outcome in choroidal melanoma

OBJECTIVE: To determine whether alterations of p53, Bcl-2 and chromosomes were present in choroidal melanoma and to further characterize the prognosis of these changes. METHODS: The expression of p53 and Bcl-2 protein was assessed by immunohistochemistry from paraffin blocks. Tumours were analysed by comparative genomic hybridization (CGH) to identify chromosomal aberrations. Fifteen tumours were studied, and the survival results were compared by Spearman correlation analysis with a mean follow-up of 36.5+/-8 months. The majority of tumours were mixed (eight cases), and the others were spindle cell (four cases) and epithelioid cell (three cases) types. Four patients have already died due to metastatic disease. RESULTS: p53 was expressed at a low percentage in only two tumours. There were no differences in Bcl-2 expression in our cases. Bcl-2 was expressed by the majority of cells in all cases. Chromosomal copy number aberrations were detected in 10 of the 15 patients by CGH analyses. A gain at chromosome 8 and a loss at chromosome 3 were the most frequently seen abnormalities. The other aberrations observed were losses at 6q, 7q14 and 17p13-15, and gains at 6p and 18q. Two of the three cases with a loss at 17p13 showed a low percentage expression of p53. No relationship was determined between the chromosomal abnormalities, cell type, expression of p53 and survey. The presence of a chromosome 6q deletion in two of the four patients who died of metastatic disease may indicate that chromosome 6q deletion may be correlated with a poor prognosis. CONCLUSIONS: Our results suggest that choroidal melanomas show high levels of chromosomal alterations. Further studies are necessary to determine the correlation between chromosomal abnormalities and prognosis.     

Oncogenetic tree modeling of human hepatocarcinogenesis

Classical comparative genomic hybridization (CGH) has been used to identify recurrent genomic alterations in human HCC. As hepatocarcinogenesis is considered as a stepwise process, we applied oncogenetic tree modeling on all available classical CGH data to determine occurrence of genetic alterations over time. Nine losses (1p, 4q, 6q, 8p, 9p, 13q, 16p, 16q and 17p) and ten gains (1q, 5p, 6p, 7p, 7q, 8q, 17q, 20p, 20q and Xq) of genomic information were used to build the oncogenetic tree model. Whereas gains of 1q and 8q together with losses of 8p formed a cluster that represents early etiology-independent alterations, the associations of gains at 6q and 17q as well as losses of 6p and 9p were observed during tumor progression. HBV-induced HCCs had significantly more chromosomal aberrations compared to HBV-negative tumors. Losses of 1p, 4q and 13q were associated with HBV-induced HCCs, whereas virus-negative HCCs showed an association of gains at 5p, 7, 20q and Xq. Using five aberrations that were significantly associated with tumor dedifferentiation a robust progression model of stepwise human hepatocarcinogensis (gain 1q → gain 8q → loss 4q → loss 16q → loss 13q) was developed. In silico analysis revealed that protumorigenic candidate genes have been identified for each recurrently altered hotspot. Thus, oncogenic candidate genes that are coded on chromosome arms 1q and 8q are promising targets for the prevention of malignant transformation and the development of biomarkers for the early diagnosis of human HCC that may significantly improve the treatment options and thus prognosis of HCC patients.     

三种食管鳞癌细胞系的染色体异常研究

目的:分析食管鳞癌(ESCC)细胞系的染色体异常,为将来寻找食管癌相关基因提供线索。方法:采用比较基因组杂交法(CGH)分析3种ESCC细胞系的染色体DNA拷贝数改变情况。结果:9q(3/3)、3q(2/3)、5q(2/3)、5p(2/3)、8q(2/3)、12p(2/3)和20q(2/3)为常见的染色体增加区。4q(2/3)和6q(2/3)是常见的染色体丢失区。结论:这些常见的染色体异常有助于寻找和定位食管癌相关基因。     

Regional deletion and amplification on chromosome 6 in a uveal melanoma case without abnormalities on chromosomes 1p, 3 and 8

Uveal melanoma (UM) is the most common primary intraocular malignancy in adults. Loss of the long arm and gain of the short arm of chromosome 6 are frequently observed chromosomal aberrations in UM, together with loss of chromosome 1p36, loss of chromosome 3 and gain of chromosome 8. This suggests the presence of one or more oncogenes on 6p and tumor suppressor genes at 6q that are involved in UM development. Both regions, however, have not been well defined yet. Furthermore in other neoplasms gain of 6p and loss of 6q are frequently occurring events. In this case report, we describe the delineation of a partial gain on chromosome 6p and a partial deletion on 6q in a UM with the objective to pinpoint smaller candidate regions on chromosome 6 involved in UM development. Conventional cytogenetics, comparative genomic hybridization (CGH) and fluorescence in-situ hybridization (FISH) were used to delineate regions of loss and gain on chromosome 6 in this UM patient. With conventional cytogenetics a deleted region was found on chromosome 6q that was further delineated to a region ranging from 6q16.1 to 6q22 using CGH and FISH. A region of gain from 6pter to 6p21.2 was also demarcated with CGH and FISH. No other deletions or amplifications on recurrently involved chromosomes were found in this patient. This study indicates the presence of one or more tumor suppressor genes on chromosomal region 6q16.1-6q22 and the presence of one or more oncogenes on chromosomal region 6pter-6p21.2, which are likely to be important in UM and other tumors.